Battery degradation degree estimation device and battery degradation degree estimation method

The invention claimed is: 1. A battery degradation degree estimation device for estimating a remaining life of a battery as accurately as possible, comprising: a total degradation degree detection unit configured to detect a present total degradation degree of the battery; a cycle degradation estimation unit configured to estimate a future cycle degradation degree due to charge/discharge of the battery by: obtaining an integration value during a unit period of an output characteristic, the output characteristic being at least one of power or current; predicting a future integration value of the output characteristic on the basis of the obtained integration value of the output characteristic; and estimating the future cycle degradation degree on the basis of the predicted integration value of the output characteristic and a cycle degradation characteristic stored in advance, wherein the cycle degradation characteristic relating the future cycle degradation degree to the future integration value of the output characteristic and excluding a storage degradation degree such that the future cycle degradation degree changes proportionally with the future integration value; a storage degradation estimation unit configured to: calculate a present storage degradation degree on the basis of a time from a reference timing up to present and a storage degradation characteristic stored in advance, wherein the present storage degradation degree is not directly proportional to time, and wherein the reference timing being a time related to a contact of electrodes of the battery with an electrolyte of the battery; and estimate a future storage degradation degree over time inside the battery on the basis of the present storage degradation degree and the storage degradation characteristic; a battery degradation estimation unit configured to estimate a future battery degradation degree on the basis of the present total degradation degree, the future cycle degradation degree and the future storage degradation degree; and a life prediction unit configured to estimate the remaining life of the battery using the future battery degradation degree. 2. The battery degradation degree estimation device according to claim 1 , wherein: the integration value of the output characteristic is any of an integration value of charging power, an integration value of discharging power, an integration value of an absolute value of charging power and discharging power, an integration value of charging current, an integration value of an absolute value of charging current and discharging current. 3. The battery degradation degree estimation device according to claim 1 , wherein: the cycle degradation characteristic is such a characteristic that the cycle degradation degree increases in proportion to a charge/discharge number of the battery. 4. The battery degradation degree estimation device according to claim 1 , wherein: the storage degradation characteristic is such a characteristic that the storage degradation degree increases in proportion to a square root of time from the reference timing. 5. The battery degradation degree estimation device according to claim 1 , wherein: the total degradation degree detection unit obtains a total output characteristic integration value from a reference timing up to present, calculates a present cycle degradation degree on the basis of the obtained total output characteristic integration value and a cycle degradation characteristic stored in advance, calculates a present storage degradation degree on the basis of the time from the reference timing up to present and a storage degradation characteristic stored in advance and detects the present total degradation degree of the battery on the basis of the present cycle degradation degree and the present storage degradation degree. 6. The battery degradation degree estimation device according to claim 1 , wherein to estimate the remaining life of the battery using the future battery degradation degree comprises to: calculate a time until the future battery degradation degree estimated by the battery degradation estimation unit reaches a usage limit degradation degree determined in advance. 7. The battery degradation degree estimation device according to claim 1 , comprising: a storage unit configured to store a correlation between a traveling distance of a vehicle and an operating time until the traveling distance is reached; and a conversion unit configured to convert a time into the traveling distance on the basis of the correlation. 8. The battery degradation degree estimation device according to claim 1 , comprising: a temperature storage unit configured to store a frequency of battery temperature within a predetermined time, wherein: at least either one of the future storage degradation degree and the future cycle degradation degree is corrected in response to the frequency of battery temperature. 9. The battery degradation degree estimation device according to claim 8 , wherein: the temperature storage unit stores the frequency of battery temperature in the past year together with timings of occurrence in a time series manner; and at least either one of the future storage degradation degree and the future cycle degradation degree is corrected in response to the frequency of battery temperature. 10. The battery degradation degree estimation device according to claim 1 , comprising: an SOC storage unit configured to store a frequency of battery SOC within a predetermined time, wherein: the future storage degradation degree is corrected in response to the frequency of battery SOC. 11. A battery degradation degree estimation method, comprising: detecting a present total degradation degree of a battery; estimating a future cycle degradation degree due to charge/discharge of the battery by steps comprising: obtaining an integration value during a unit period of an output characteristic, the output characteristic being at least one of power or current; predicting a future integration value of the output characteristic on the basis of the obtained integration value of the output characteristic; and estimating the future cycle degradation degree on the basis of the predicted integration value of the output characteristic and a cycle degradation characteristic stored in advance, the cycle degradation characteristic relating the future cycle degradation degree to the future integration value of the output characteristic and excluding a storage degradation degree such that the future cycle degradation degree changes proportionally with the future integration value; estimating a future storage degradation degree over time inside the battery by: calculating a present storage degradation degree on the basis of a time from a reference timing up to present and a storage degradation characteristic stored in advance and on the basis of the calculated present storage degradation degree and the storage degradation characteristic, wherein the present storage degradation degree is not directly proportional to time; estimating a future battery degradation degree on the basis of the present total degradation degree, the future cycle degradation degree and the future storage degradation degree; and estimating a remaining life of the battery using the future battery degradation degree. 12. The method of claim 11 , further comprising: providing, to a user and based on the future battery degradation degree, an estimate of a number of years from a current date the battery will be degraded. 13. The method of claim 11 , further comprising: providing, to a user and based on the future b